def test_indexer_between_time_non_nano(self, unit):
# For simple cases like this, the non-nano indexer_between_time
# should match the nano result
rng = date_range("1/1/2000", "1/5/2000", freq="5min")
arr_nano = rng._data._ndarray
arr = arr_nano.astype(f"M8[{unit}]")
dta = type(rng._data)._simple_new(arr, dtype=arr.dtype)
dti = DatetimeIndex(dta)
assert dti.dtype == arr.dtype
tic = time(1, 25)
toc = time(2, 29)
result = dti.indexer_between_time(tic, toc)
expected = rng.indexer_between_time(tic, toc)
tm.assert_numpy_array_equal(result, expected)
# case with non-zero micros in arguments
tic = time(1, 25, 0, 45678)
toc = time(2, 29, 0, 1234)
result = dti.indexer_between_time(tic, toc)
expected = rng.indexer_between_time(tic, toc)
tm.assert_numpy_array_equal(result, expected)
def all_minutes(self):
"""
返回表示此日历中所有分钟的`DatetimeIndex`。
"""
opens_in_ns = self._opens.values.astype(
'datetime64[ns]',
).view('int64')
closes_in_ns = self._closes.values.astype(
'datetime64[ns]',
).view('int64')
# compute_all_minutes假设每天仅包含连续分钟块
dts = DatetimeIndex(
compute_all_minutes(opens_in_ns, closes_in_ns),
tz='utc',
)
# 如果有午休,则排除午休时段
if self.use_lunch_break:
# 需要使用utc时间
utc_start = days_at_time(
[dts[0].date()], self.lunch_break_start_time, self.tz).time[0]
utc_end = days_at_time(
[dts[0].date()], self.lunch_break_end_time, self.tz).time[0]
locs = dts.indexer_between_time(
utc_start, utc_end, include_start=True, include_end=True)
return dts.delete(locs)
else:
return dts
